2023.10.25

2023.08.13
2023.09.11
2025-12-08 02:21:00 +00:00 · 2023-10-25 19:43:27 -04:00 · 2023-09-13 17:36:44 -04:00 · 2023-09-11 09:41:32 -04:00 · 2023-09-06 17:37:58 -04:00 · 2023-08-31 08:44:52 -04:00
5 changed files with 115 additions and 37 deletions
--- a/2
+++ b/2
@@ -1,2 +1,2 @@
-Juen 25 2023
+October 25 2023
--- a/doc/CHANGES
+++ b/doc/CHANGES
@@ -15093,3 +15093,17 @@ be the acoutic piano (0) by default.
 If more than one channel with the same program color, they should be
 added together.
 August 22 2023
 Midistats improved the calculation of the number of rhythm patterns
 in a channel (barChn[chan].rhythmPattern) by allowing for dithering
 of note onset. Introduced dithermargin variable in function
 stats_noteon(). In function, output_track_summary(), suppressed
 notemeanpitch for percussion channel.
 October 25 2023
 Midistats returns track activity (note on/off) for every track.
--- a/doc/midistats.1
+++ b/doc/midistats.1
@@ -1,4 +1,4 @@
-.TH MIDISTATS 1 "9 December 2022"
+.TH MIDISTATS 1 "25 October 2023"
 .SH NAME
 \fBmidistats\fP \- program to summarize the statistical properties of a midi file
 .SH SYNOPSIS
@@ -36,7 +36,14 @@ the sum of the MIDI pitches for all the notes,
 the sum of the note durations in MIDI pulse units,
 the number of control parameter messages,
 the number of pressure messages.
-and the number of distinct rhythm patterns for each channel
+the number of distinct rhythm patterns for each channel
 the number of pulses the channel was inactive
 the minimum pitch value
 the maximum pitch value
 the minimum note length in pulses
 the maximum note length in pulses
 the number of gaps in the channel
 the entropy of the pitch class histogram for that channel
 .PP
 After processing all the individual tracks, the following information
 applies to the entire midi file.
@@ -70,9 +77,9 @@ that occur in the midi file.
 pitchact is a similar histogram but is weighted by the length of
 the notes.
 .PP
-quietTime is used to compute the track/channel spread in midiexplorer.
+chnact returns the amount of note activity in each channel.
-It is computed by summing up all the midi pulses which occur
+.PP
-in gaps greater than 8 beats.
+trkact returns the number of notes in each track.
 .PP
 totalrhythmpatterns is the total number of bar rhythm patterns for
 all channels except the percussion channel.
--- a/doc/readme.txt
+++ b/doc/readme.txt
@@ -6,20 +6,18 @@ abc2abc  version 2.20 February 07 2023
 yaps     version 1.92 January 06 2023
 abcmatch version 1.82 June 14 2022
 midicopy version 1.38 May 06 2022
-midistats version 0.59 February 08 2023
+midistats version 0.77 October 25 2023
 24th January 2002
 Copyright James Allwright
-J.R.Allwright@westminster.ac.uk
+jamesallwright@yahoo.co.uk
 University of Westminster,
 London, UK
-October 2021
+August 2023
-
+Copyright Seymour Shlien
 Seymour Shlien
 Ottawa, Canada
 fy733@ncf.ca
 Ottawa, Canada
 This is free software. You may copy and re-distribute it under the terms of 
 the GNU General Public License version 2 or later, which is available from
--- a/midistats.c
+++ b/midistats.c
@@ -18,7 +18,7 @@
 * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA  02110-1301, USA
 */
-#define VERSION "0.70 June 25 2023 midistats"
+#define VERSION "0.77 October 25 2023 midistats"
 #include <limits.h>
 /* Microsoft Visual C++ Version 6.0 or higher */
@@ -52,7 +52,8 @@ void stats_finish();
 float histogram_entropy (int *histogram, int size); 
 void stats_noteoff(int chan,int pitch,int vol);
 void stats_eot ();
-
+#define max(a,b)  (( a > b ? a : b))
 #define min(a,b) (( a < b ? a : b))
 /* Global variables and structures */
@@ -62,6 +63,7 @@ static FILE *F;
 static FILE *outhandle; /* for producing the abc file */
 int tracknum=0;  /* track number */
 int lasttrack = 0; /* lasttrack */
 int division;    /* pulses per quarter note defined in MIDI header    */
 int quietLimit;  /* minimum number of pulses with no activity */
 long tempo = 500000; /* the default tempo is 120 quarter notes/minute */
@@ -114,8 +116,10 @@ int trackcount = 0;
 int notechan[2048],notechanvol[2048]; /*for linking on and off midi
 					channel commands            */
-int last_tick[17]; /* for getting last pulse number in MIDI file */
+int lastTick[2048]; /* for getting last pulse number for chan (0-15) and pitch (0-127) in MIDI file */
 int last_on_tick[17]; /* for detecting chords [SS] 2019-08-02 */
 int channel_active[17]; /* for dealing with chords [SS] 2023-08-30 */
 int channel_used_in_track[17]; /* for dealing with quietTime [SS] 2023-09-06 */
 int histogram[256];
 unsigned char drumpat[8000];
@@ -131,7 +135,11 @@ struct trkstat {
  int notecount[17];
  int chordcount[17];
  int notemeanpitch[17];
  int notepitchmin[17];
  int notepitchmax[17];
  int notelength[17];
  int notelengthmin[17];
  int notelengthmax[17];
  int pitchbend[17];
  int pressure[17];
  int cntlparam[17];
@@ -141,6 +149,8 @@ struct trkstat {
  int lastNoteOff[17];
  int quietTime[17];
  int rhythmpatterns[17];
  int numberOfGaps[17];
  float pitchEntropy[17];
  } trkdata;
 /* The trkstat references the individual channels in the midi file.
@@ -162,8 +172,10 @@ int pitchhistogram[12]; /* pitch distribution for non drum notes */
 int channel2prog[17]; /* maps channel to program */
 int channel2nnotes[17]; /*maps channel to note count */
 int chnactivity[17]; /* [SS] 2018-02-02 */
 int trkactivity[40]; /* [SS] 2023-10-25 */
 int progactivity[128]; /* [SS] 2018-02-02 */
 int pitchclass_activity[12]; /* [SS] 2018-02-02 */
 int chanpitchhistogram[204]; /* [SS] 2023-09-13 */
 /* [SS] 2017-11-01 */
@@ -407,6 +419,7 @@ void stats_header (int format, int ntrks, int ldivision)
  quietLimit = ldivision*8;
  divisionsPerBar = division*beatsPerBar;
  unitDivision = divisionsPerBar/24;
  lasttrack = ntrks; /* [SS] 2023-10-25 */
  printf("ntrks %d\n",ntrks);
  printf("ppqn %d\n",ldivision);
  chordthreshold = ldivision/16; /* [SS] 2018-01-21 */
@@ -419,6 +432,7 @@ void stats_header (int format, int ntrks, int ldivision)
    trkdata.cntlparam[i] = 0; /* [SS] 2022-03-04 */
    trkdata.pressure[i] = 0; /* [SS] 2022-03-04 */
    trkdata.quietTime[i] = 0; /* [SS] 2022-08-22 */
    trkdata.numberOfGaps[i] = 0; /* [SS] 2023-09-07 */
    progcolor[i] = 0;
    channel2prog[i] = 0; /* [SS] 2023-06-25-8/
    channel2nnotes[i] = 0;
@@ -428,6 +442,7 @@ void stats_header (int format, int ntrks, int ldivision)
  for (i=0;i<12;i++) pitchhistogram[i] = 0; /* [SS] 2017-11-01 */
  for (i=0;i<12;i++) pitchclass_activity[i] = 0; /* [SS] 2018-02-02 */
  for (i=0;i<128;i++) progactivity[i] = 0; /* [SS] 2018-02-02 */
  for (i=0;i<40;i++) trkactivity[i]=0; /* [SS] 2023-10-25 */
 }
 void determine_progcolor ()
@@ -513,17 +528,12 @@ else
  for (i=0;i<12;i++) printf("%5.2f ",(double) pitchclass_activity[i]);
 printf("\nchnact "); /* [SS] 2018-02-08 */
 if (npulses > 0)
-  for (i=1;i<17;i++) printf("%5.2f ",chnactivity[i]/(double) trkdata.npulses[0]);
+  for (i=1;i<17;i++) printf("%5.3f ",chnactivity[i]/(double) trkdata.npulses[0]);
 else 
-  for (i=0;i<17;i++) printf("%5.2f ",(double) chnactivity[i]);
+  for (i=0;i<17;i++) printf("%5.3f ",(double) chnactivity[i]);
-printf("\nquietTime ");
+printf("\ntrkact ");
-for (i=1;i<17;i++) {
+  lasttrack++;
-  delta = trkdata.npulses[0] - trkdata.quietTime[i];
+  for (i=0;i<lasttrack;i++) printf("% 5d",trkactivity[i]);
  if (trkdata.quietTime[i] < quietLimit) delta = 0;
  delta = delta / (double) trkdata.npulses[0];
  /* printf (" %5.3f ", delta); */
  printf (" %d ", trkdata.quietTime[i]);
  }
 printf("\npitchentropy %f\n",histogram_entropy(pitchclass_activity,12));
 printf("totalrhythmpatterns =%d\n",nrpatterns);
@@ -541,8 +551,10 @@ float histogram_entropy (int *histogram, int size)
  float e,p;
  total = 0;
  entropy = 0.0;
  //printf("\nhistogram_entropy of:");
  for (i=0;i<size;i++) {
    total += histogram[i];
    //printf(" %d",histogram[i]);
    } 
  for (i=0;i<size;i++) {
    if (histogram[i] < 1) continue;
@@ -550,6 +562,7 @@ float histogram_entropy (int *histogram, int size)
    e = p*log(p);
    entropy = entropy + e;
    } 
  //printf("\n");
  return -entropy/log(2.0);
  } 
@@ -584,10 +597,18 @@ for (i=1;i<17;i++) {
   printf("trkinfo ");
   printf("%d %d ",i,trkdata.program[i]); /* channel number and program*/
   printf("%d %d ",trkdata.notecount[i],trkdata.chordcount[i]);
-   printf("%d %d ",trkdata.notemeanpitch[i], trkdata.notelength[i]);
+   /* [SS] 2023-08-22 */
   if (i != 10) printf("%d %d ",trkdata.notemeanpitch[i], trkdata.notelength[i]);
   else 
     printf("-1  0 ");
   printf("%d %d ",trkdata.cntlparam[i],trkdata.pressure[i]); /* [SS] 2022-03-04 */
-   printf("%d %d",trkdata.quietTime[i],trkdata.rhythmpatterns[i]);
+   printf("%d %d ",trkdata.quietTime[i],trkdata.rhythmpatterns[i]);
-   trkdata.quietTime[i] = 0;
+   if (i != 10)  {printf("%d %d %d %d %d",trkdata.notepitchmin[i],  trkdata.notepitchmax[i] ,trkdata.notelengthmin[i],  trkdata.notelengthmax[i], trkdata.numberOfGaps[i]);
   printf(" %f",trkdata.pitchEntropy[i]);
    } else
     printf("-1 0");
   trkdata.quietTime[i] = 0; /* in case channel i is used in another track */
   trkdata.numberOfGaps[i] = 0;
   printf("\n");
   channel2nnotes[i] += trkdata.notecount[i] + trkdata.chordcount[i];
@@ -604,19 +625,35 @@ void stats_trackstart()
  for (i=0;i<17;i++) {
     trkdata.notecount[i] = 0;
     trkdata.notemeanpitch[i] = 0;
     trkdata.notepitchmin[i] = 128;
     trkdata.notepitchmax[i] = 0;
     trkdata.notelength[i] = 0;
     trkdata.notelengthmin[i] = 10000;
     trkdata.notelengthmax[i] = 0;
     trkdata.chordcount[i] = 0;
     trkdata.cntlparam[i] = 0;
     last_tick[i] = -1;
     last_on_tick[i] = -1;
     channel_active[i] = 0;
     }
  printf("trk %d \n",tracknum);
 for (i=0;i<2048;i++) lastTick[i] = -1;
 for (i=0;i<17;i++) channel_used_in_track[i] = 0; /* [SS] 2023-09-06 */
 for (i=0;i<204;i++) chanpitchhistogram[i] = 0;  /* [SS] 2023-09-13 */
 }
 void stats_trackend()
 {
- trkdata.npulses[tracknum] = Mf_currtime; 
+ int chan;
 int i;
 float entropy;
 if (trkdata.npulses[0] < Mf_currtime) trkdata.npulses[0] = Mf_currtime;
 for (chan = 1; chan < 17; chan++) /* [SS] 2023-09-06 */
   if (channel_used_in_track[chan] > 0) trkdata.quietTime[chan] += (trkdata.npulses[0] - trkdata.lastNoteOff[chan]); 
 for (chan=0;chan<16;chan++) {  /* 2023-09-13 */
   if (chan == 9 || channel_used_in_track[chan+1] == 0) continue;
   trkdata.pitchEntropy[chan+1] = histogram_entropy(chanpitchhistogram +chan*12,11);
   }
 output_track_summary(); 
 }
@@ -628,7 +665,12 @@ int chan, pitch, vol;
 int delta;
 int barnum;
 int unit;
 int dithermargin; /* [SS] 2023-08-22 */
 int cpitch; /* [SS] 2023-09-13 */
 cpitch = pitch % 12;
 channel_used_in_track[chan+1]++; /* [SS] 2023-09-06 */
 dithermargin = unitDivision/2 - 1; 
 if (vol == 0) {
    /* treat as noteoff */
    stats_noteoff(chan,pitch,vol);
@@ -636,17 +678,20 @@ int chan, pitch, vol;
    return;
    }
 trkdata.notemeanpitch[chan+1] += pitch;
 trkdata.notepitchmax[chan+1] = max(trkdata.notepitchmax[chan+1],pitch);
 trkdata.notepitchmin[chan+1] = min(trkdata.notepitchmin[chan+1],pitch);
 if (trkdata.lastNoteOff[chan+1] >= 0) {
 	 delta = Mf_currtime - trkdata.lastNoteOff[chan+1];
 	 trkdata.lastNoteOff[chan+1] = -1; /* in case of chord */
 	 if (delta > quietLimit) {
 		 trkdata.quietTime[chan+1] += delta;
                 trkdata.numberOfGaps[chan+1]++;
 	         trkdata.lastNoteOff[chan+1] = -1; /* in case of chord */
 	 }
    }
 if (abs(Mf_currtime - last_on_tick[chan+1]) < chordthreshold) trkdata.chordcount[chan+1]++;
 else trkdata.notecount[chan+1]++; /* [SS] 2019-08-02 */
- last_tick[chan+1] = Mf_currtime;
+ lastTick[chan*128 + pitch] = Mf_currtime;
 last_on_tick[chan+1] = Mf_currtime; /* [SS] 2019-08-02 */
 /* last_on_tick not updated by stats_noteoff */
@@ -661,9 +706,10 @@ int chan, pitch, vol;
 	 barChn[chan].rhythmPattern = 0;
         barChn[chan].activeBarNumber = barnum;
    }
-  unit = (Mf_currtime % divisionsPerBar)/unitDivision;
+  unit = ((Mf_currtime+dithermargin) % divisionsPerBar)/unitDivision;
  //printf("unit = %d pattern = %d \n",unit,barChn[chan].rhythmPattern);
  barChn[chan].rhythmPattern = barChn[chan].rhythmPattern |= (1UL << unit);
  chanpitchhistogram[chan*12+cpitch]++;  /* [SS] 2023-09-13 */
  }
@@ -674,6 +720,8 @@ int chan, pitch, vol;
   else  drumhistogram[pitch]++;
   }
 else pitchhistogram[pitch % 12]++;  /* [SS] 2017-11-01 */
 channel_active[chan+1]++;
 }
@@ -686,17 +734,28 @@ void stats_noteoff(int chan,int pitch,int vol)
  int length;
  int program;
  /* ignore if there was no noteon */
-  if (last_tick[chan+1] == -1) return;
+  if (lastTick[chan*128+pitch] == -1) return;
-  length = Mf_currtime - last_tick[chan+1];
+  length = Mf_currtime - lastTick[chan*128+pitch];
  trkdata.notelength[chan+1] += length;
  trkdata.notelengthmax[chan+1] = max(trkdata.notelengthmax[chan+1],length);
  trkdata.notelengthmin[chan+1] = min(trkdata.notelengthmin[chan+1],length);
  //if (length < 3) printf("chan = %d  lasttick = %d currtime = %ld\n",chan,lastTick[chan*128+pitch],Mf_currtime);
  trkdata.lastNoteOff[chan+1] = Mf_currtime; /* [SS] 2022.08.22 */
  chnactivity[chan+1] += length;
  trkactivity[tracknum]++;
  if (chan == 9) return; /* drum channel */
  pitchclass_activity[pitch % 12] += length;
  program = trkdata.program[chan+1];
  progactivity[program] += length;
  channel_active[chan+1]--;
  /* [SS] 2018-04-18 */
-  if(Mf_currtime > last_tick[chan+1]) last_tick[chan+1] = Mf_currtime;
+  if(Mf_currtime > lastTick[chan*128+pitch] && channel_active[chan+1] == 0) 
    lastTick[chan*128+pitch] = Mf_currtime; /* [SS] 2023.08.30 handle chords */
  if (length > 4800) {
     lastTick[chan*128+pitch] = Mf_currtime; /* handle stuck note [SS] 2023.08.30 */
     channel_active[chan+1] = 0;
     }
 }
Author	SHA1	Message	Date
sshlien	4e0266179b	2023.10.25	2023-10-25 19:43:27 -04:00
sshlien	2bf0052eb8	2023.08.13	2023-09-13 17:36:44 -04:00
sshlien	1394cd96c5	2023.09.11	2023-09-11 09:41:32 -04:00
sshlien	8a2ec3a898	2023.09.06	2023-09-06 17:37:58 -04:00
sshlien	48c443fabd	2023.08.31	2023-08-31 08:44:52 -04:00
sshlien	3f405a1aba	2023.08.22	2023-08-22 09:21:59 -04:00